Pull tab paper

ABSTRACT

A ROLL OF PACKAGING MATERIAL WHICH HAS OPENINGS THEREIN WHICH ARE COVERED BY A PULL TAB FOR ACCESS TO THE INTERIOR OF THE PACKAGE FORMED FROM THE PACKAGING MATERIAL. THE ADJACENT PULL TABS ON THE ROLL OF PACKAGING MATERIAL ARE STAGGERED IN RELATION TO ONE ANOTHER SO THAT THE PACKAGING MATERIAL WHEN ROLLED UP HAS STABILITY AND THE PROPER DENSITY FOR MAXIMUM PACKAGING EFFICIENCY.

Nov. 14,1972 w. o. YOUNG, JR

PULL TAB PAPER 12 Sheets-Sheet 1 Filed Jan. 7, 1971 INVENTOR WILLIAM O.YOUNG, JR.

ATTORNEY Nov. 14,1972

w. o. YOUYNG, JR

PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 2 N MFK VEN'fOR 1 JR.Q;

ATTORNEY Nov. 14,1972 1 w. o. YOUNG, JR 3,702,554

PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 5 Q l-ZSS s 252 0 M ,r:r 1

FIGo 6 mvEmoR WILLIAM o. YOUMG,=JR.

M R W ATTORNEY Nov. 14, 1972 1 w. o. YOUNG, JR ,7

PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 4 10 E ME 14E ME E3412-I2-EZ|1I4 42%; 12am |2- ATTORNEY Nov. 14, 1972 I w. o. YOUNG, JR3,702,554

PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 6 ATTORNEY I Nov. 14,1972 PULL TAB PAPER 12 Sheets-Sheet 7 Filed Jan. 7, 1971 f Fl| F 1% w AL H [$1.0 4 M w. ww. 4 mnw mi Fl 1 W=J my 02 3 4 vfl -L W 4 8 II M yNVEM'QR WILLIAM o. vo u'us, JR.

ATTORNEY Nov. 14, 1972 w. o. YOUNG, JR

PULL TAB PAPER 12 Sheets-Sheet 8 Filed Jan. 7, 1971 FIG "i"- mvivfonWILLIAM O.YO.UNG,JR.

ATTORNEY Nov. 14, 1972 I w. o. YOUNG, JR 3,702,654

' PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 9 INVENTOR WILLIA Mo. vouue, JR.

BY x

ATTORNEY Nov. 14, 1972 l w. o. YOUNG, JR 3,702,654

PULL TAB PAPER Filed Jan. 7, 1971 12 Sheets-Sheet 1o FIR-I4- INVENTORWILLIAM O. YOUNG, JR.

BY a

ATTORNEY x:

Nov. 14, 1972 l w. o. YOUNG, JR 3,702,554

PULL TAB PAPER Filed Jan. '7, 1971 12 Sheets-Sheet 11 FIG. --/6-INVENTOR WILLIA M O. YOUNG, JR.

ATTORNEY W. O. YOUNG, JR

Nov. 14, 1972 PULL TAB PAPER 12 Shaecs-Sheet 12 Filed Jan. 7, 1971mvENToR WILLIAM o. vourm, JR.

ATTORNEY United States Fatent Gfice 3,702,654 Patented Nov. 14, 19723,702,654 PULL TAB PAPER William 0. Young, Jr., Spartanburg, SC,assignor to Deering Milliken Research Corporation, Spartanburg,

' Filed Jan.7,1971,Ser.No.104,645

Int. c1. 365d 85/00, 85/67, 85/80 US. Cl. 206-59 F 2 Claims ABSTRACT OFTHE DISCLOSURE This invention relates generally to the preparation of acontinuous length of web material in which openings have been madetherein for access to the contents of a package made therefrom and havea tab heat sealed thereover for removal by the consumer. In particularthis invention relates to web material to be used in the construction ofa tetrahedron container such as that shown in US. Pat. 3,166,226.

Prior to this invention the web stock for forming the package wasmounted on the packaging machine and the openings and pull tabsthereover were made by the machine itself. This, of course, requires apull tab apparatus for each packaging machine and such apparatus limitedthe speed of the packaging machine since the machine could only run asfast as the pull tabs were being placed over the openings being placedin the web stock.

It is therefore an object of this invention to provide a roll of webmaterial which already has the openings therein and pull tabs placedthereover.

Other objects and advantages of the invention will become readilyapparent as the specification proceeds to describe the invention withreference to the accompanying drawings, in which:

FIG. 1 is a front elevation view of the new machine to pre-apply pulltabs to a sheet of web material;

FIG. 2 is a rear elevation view of the machine shown in FIG. 1;

FIGS. 3-6 show various cam actuated switches employed to control theoperation of the machine;

FIG. 7 illustrates a strip of packaging material with pull tabs sealedover the openings therein;

FIG. 8 is a blown-up front cross-sectional view of the paper accumulatorsection of the machine shown in FIG. 1;

FIG. 9 is a cross-sectional view taken on line 99 of FIG. 8 showing theaccumulator cam;

FIG. 10 is a cross-sectional view taken on line 1010 of FIG. 8 showingthe exit clamp;

FIG. 11 is a rear elevation view of the hole punch section;

FIG. 12 is a cross-sectional view taken on line 12-12 of FIG. 11 showingthe punch cam;

FIG. 13 is a rear view of the pull tab heat sealing unit and the pulltab tape feed;

FIG. 14 is a cross-sectional view taken on line 14-14 of FIG. 13 andshows the heat seal cam;

FIG. 15 is a cross-sectional view taken on line 1515 of FIG. 13 showinga pull tab tape metering cam system;

FIGS. 16 and 17 are crosssectional views taken on line 1616 of FIG. 13showing the pull tab tape puller cam;

FIG. 18 is a cross-sectional view showing the tape knock-off device;

FIG. 19 is a top view of the tab tape roll support; and

FIG. 20 shows a perspective view of a roll of material with pull tabsapplied thereto.

As pointed out briefly, this invention is directed to packaging materialto be formed into tetrahedron containers and is preferably laminatedstock material with one lamina being a layer of thermoplastic materialsubstantially impervious and inert to the contents of the containerformed from said material. The laminated material used to form thesecontainers is ordinarily one or more layers of paper laminated to layersof polyethylene or polypropylene so that the face of the laminatedmaterial which will form the inner face of the container will present aliquid impervious face to the contents. The outermost lamina isordinarily moisture resistant, either by being formed of a layer of wetstrength paper or a lamina of thermoplastic materials such as wax orpolyethylene, or both. The container will bear the conventionaltransverse sealed seams and longitudinal, inside face to inside face, orlapped seam. At the apex which is uppermost of the wall which facesupward when the container rests on the opposite wall, there is providedan access aperture in the wall. This will ordinarily be a small roundhole which, if the container is a pint or half-pint size, will be aboutthe size which will receive a drinking straw. The opening is sealed by atab covering the opening and bonded to the outer face of the portion ofthe wall surrounding the opening by the bonding of the portion of thethermoplastic material forming at least one face of the tape to theoutermost lamina of the container, thus providing a liquid tight seal.The tape is ordinarily formed of paper lami nated to polyethylene orpaper impregnated with polyethylene, polypropylene, or wax.

Looking now to the drawings, FIGS. 1 and 2 represent schematically thefront and back, respectively, of the machine which produces the web ofmaterial 10 shown rolled in FIGS. 1 and 20 and show unrolled in FIG. 7.As described above, the material 10 is laminated and the purpose of thisinvention is to provide a plurality of staggered openings 12 therein andheat seal a tab 14 thereover to provide a seal until it is desired togain access through the opening 12 into the contents of the containerformed from the web material. It should be noted that each adjacentopening and pull tab is staggered in relation to the next adjacentopening and pull tab. This arrangement is necessary in order to be ableto roll up a large roll of this material and still maintain stabilityand the proper tensity. The pull tabs balance one another so that whenthe material is rolled up the roll of material 10 will havesubstantially the same diameter on both sides. If the tabs were notstaggered the roll would have a combined thickness of the pull tabs andthe web of material which would tend to distort or telescope sidewaysmaking it very difficult to run on a packaging machine. Also a roll ofmaterial with pull tabs not staggered would be difficult to ship andhandle.

As shown in FIGS. 1 and 2 a roll 16 of laminated paper stock 10 ismounted on a shaft 18 driven in a counter clockwise direction through aneddy current clutch (not shown) by a motor 20 to control the tension inthe paper 10 as it is being pulled off the roll by the drive rolls 22and 24 which are driven by motor 26. Both the motors 20 and 26 drivetheir respective rolls through suitable drive belts 28. As is well knownin the art, the eddy current clutch for the motor 20 will brake therotation of the roll 16 to maintain the desired tension in the paperstock 10.

The paper Stock 10 travels successively through the paper supply chamber30, tension control 32, accumulator chamber 34, punch chamber 36, pulltab heat seal chamber 38, driven roll section 40, paper collectionchamber 42, metering rolls 44 and 45 onto the take-up roll 46 which isdriven by the motor 48. Metering rolls 44 and 45 are driven by asuitable motor 47.

As will be explained in detail hereinafter, the basic machine operationsare controlled by photocell 50 and cams '2, 54, 56 and 58 shown indetail in FIGS. 36, respectively. The control arrangement is designed sothat an exact amount of paper is being accumulated in the accumulatorsection 34 for the next cycle while the leading portion issimultaneously being punched in the punch chamber 36 while pull tabs 14are being heat sealed over the openings 12, punched in a previous cycle,in the heat sealing chamber 38.

Since the drive rolls 22, 24 and 44, 45 operate continuously while thepunching and sealing opeation is intermittent it is desirable to have aloop of web material in both the paper supply chamber 30 and the papercollection chamber 42. To control the amount of loop in such chambers aphotocell 60 and light source 62 are located in the upper portion of thechambers 30 and 42 and a second photocell 64 and light source 66 arelocated near the bottom of each chamber. When the loop increases to apoint where it drops down to block the light from the light source 66 aswell as the light source 60 the speed of the motor 26 will be decreasedto decrease the speed of the rolls 22 and 24, and the speed of motor 47will be increased to increase the speed of rolls 44 and 45. Conversely,if the loop rises to a point above the light source 60 and both thephotocells 62 and 66 are receiving light then the speed of the motor 26will be increased and the speed of motor 47 decreased to allow the webmaterial 10 to accumulate in the chambers 30 or 42 to lower the positionof the loop of web material therein.

As discussed above, the photocell arrangement controls the speed of therolls 44 and 45 but a further control in the speed of the rolls 44 and45 is exerted by the use of both an eddy current clutch and an eddycurrent brake on the motor 47. If the speed of the rolls 44 and 45varies from a set point, the eddy current brake or the eddy currentclutch will act to maintain the tension depending on which side of theset point the speed has varied to.

Another photocell 68 and light source 70 are employed on the output sideof the rolls 44 and 45 to scan the web material which has been punchedand tabbed to determine whether some of the openings therein have notbeen sealed over with pull tabs 14. If a hole in the web material 10which has no tab thereover passes between the photocell 68 and lightsource 70 the light from the light source 70 will be detected by thephotocell 68 and a signal will be generated which can be used either toshut off the machine or to actuate a signal to notify the operator ofsuch defect.

The tension of the web material being supplied to the accumulator 34 iscritical since it is desired to accumulate an exact amount of paper inthe accumulator so that the pull tabs will be located in the correctposition, and therefore a tension control 32 is employed to keep theslack out of the web material in the accumulator. The tension control 32is a commercially available type which employs a spring loaded plate 71to exert a force normal to the web material as it is being delivered tothe accumulator.

The accumulator chamber 34 is located downstream of the tension control32 with the paper fiow therethrough being controlled by the photocell50, the entrance clamp 72 and the cam actuated exit clamp 74. Asdiscussed previously, the purpose of the accumulator chamber 34 is toaccumulate a desired length of web material 10 for the next punchingcycle. FIGS. 8-10 show the accumulator chamber 34 when the accumulators76 and the trim cylinder 78 are extended and are about to retract beforethe trimmer 77 completes pulling in the paper prior to the closing ofthe entrance clamp 72 to confine the desired length of web material inthe chamber 34.

The entrance clamp 72 is actuated by the piston 80 while the movement ofthe exit clamp 74 is controlled by the cam 82 (FIG. 10) which acts onthe follower 84 to pivot the lever 86 against the bias of spring 88 toclose the exit clamp 74 to grip the paper against the fixed mating clamp90. The cam 82 is so designed to co-act with the other movements of themachine.

It should be noted (FIG. 2) that the mechanical mechanisms to cause therequired movements of the elements of the accumulator chamber 34, thepunch chamber 36, cams 52, 54, 56, 58 and the pull tab heating sealingsection 38 are all mounted in operative relationship with extended shaft92 which is driven by motor 94 through pulley belt 96.

Looking at FIGS. 8 and 9, each of the accumulators 76 except trimmer 77are driven in its downward movement by a cam 98 mounted on the extendedshaft 92 and rotating therewith. Trimmer 77 is driven by cam 98a. Eachaccumulator 76 and trimmer 77 consists of a finger member having aroller 100 rotatably mounted at the bottom thereof between side plates102. Side plates 102 in turn are mounted to horizontally extendingsupport members 104 which are pivotally mounted at 106 to a supportmember 108. Another support member 110 extends between the side walls102 and supports a U-shaped bracket 112 which pivotally supports aconnecting arm 114. Connecting arms 114 extend upwardly and arepivotally supported between a pair of lever arms 116 and 118 rotatablysupported on shaft 120 supported on the top of the machine by suitablebrackets 122. A cam follower 124 is mounted inside a pair of levers andis engaged by cams 98 and acts against the bias of springs 99. Trimmer77 is constructed like accumulator 76 except cam 98a delays the actionof the trimmer.

The side plates 102, from the pivot points 106 toward the middle of theaccumulator chamber 34, fit inside the next adjacent side plates 102toward the pivot points 106, and are so spaced so that the rollers 100will push web material down between the rollers 126.

In the preferred form of the invention it is desired to punch and heatseal eight pull tab openings at one time as shown in FIG. 7, but anyreasonable desired number can be made. It is desired that each openingin the web material is staggered in relation to the next adjacentopening. To accomplish the desired punching of the web material eightpunch members 128 are mounted in the punch chamber 36 to simultaneouslypunch eight openings in the web material from the bottom thereof.Looking at FIGS. 11 and 12 the punch mechanism is shown in detail. Thetiming of the punch operation is controlled by the cams 130 mounted onthe shaft 92 which contacts the followers 132 mounted between lever arms134 which are pivotally mounted at 136. Pivotally connected between thelevers 134 at the other end thereof is a connecting arm 138 whichpivotally connects the lever arms 134 to the lever arms 140. The leverarms 140 are pivotally connected to a stub shaft 142 mounted in suitablebearings 144 supported on the frame of the machine. When the cams 130force the lever arms 134 downwardly the lever arms 140 will pivotupwardly through the action of connecting arm 138 to force the punchholder 146 upwardly against the bias of springs 148 to force the punchmembers 128 through the paper. Then the cams 130 will continue to rotateand the springs will return the punch members to the down position.

From the punch chamber 36 the web material is indexed to the pull tabseal chamber wherein the pull tab 14 is heat sealed to the web material10 over the opening 12. A plate 150 is mounted on the machine framebetween the chambers 36 and 38 to prevent the web material from bucklingso that the previously punched opening will be in proper position underthe heater platens 152.

At the appropriate time when the cams 154, mounted on the shaft 92 (FIG.14), rotate to the desired position, the cam surface will push thefollower 156 upwardly,

thereby pivoting the lever arms 1'55, pivotally connected to shaft 157,counterclockwise to push the heater platen arms 158 and 160 downwardlyagainst the bias of springs 161 to push the tape portion 163 downagainst the blades 162 to cause the blades 162 to sever oif eight pulltabs 14 from the tape material 164 and the heater platens 152 to heatseal the severed pull tabs 14 over the openings 12.

The pull tab material 164 comes in rolls and is rotatably mounted inbins 166 (see FIG. 2) at the rear of the machine and is delivered underthe heater platens 152 by a drive roll 168 in a manner hereinafterexplained. In its path of travel from the bins 166 to the platens 152the pull tab material travels successively between the spaced rods ofthe stop motion actuator wire 170, over pull back preventor 172, underguide rod 174, between eccentrically mounted rolls 176 and 178, over therod 180 and through the drive roll 168 and nip roll 184 into positionunder the heater platen 152.

The pull tab material 164 is wound on a cardboard tube 186 and ismounted on a rod 188 projecting into the bins 166. Looking at FIGS. 18and 19 the rod 188 is pinned by pin 190 into a cylindrical member 192which is mounted into a plastic support member 194. The plastic supportmember 194 is rigidly attached to the partition between the bins. Thesupport member 194 has a groove 196 therein to accommodate a spring 198hooked to a pin 200 at one end and another pin 202 integral with thecylindrical member 192. The rod 188 is capable of pivotal movement upand down while the cylindrical member 192 is capable of rotationalmovement. As shown in the position of FIG. 19 the rod 188 is in itsoperation and the cylindrical member is held against further movement bya stop (not shown). When it is desired to load the bins 166 with a newroll of pull tab material 164, the roll is placed in the bin with itsaxis of rotation perpendicular to the bin side walls. Then the roll ispushed forward against the rod 188 causing the cylindrical member torotate against the bias of the spring 198 until the rod 188 enters theinside of the hollow tube 186. Then the spring 198 rotates thecylindrical member 192 and the rod 188 to the operative position shownin FIG. 19.

As shown in FIG. 18 the upward movement of the rod 188 cooperates withthe stop motion actuator 170 to provide for a means to stop the machinewhen any of the rolls of pull tab tape run out. Basically the stopmotion device consists of two plates 204 mounted on opposite sides ofthe rear of heat seal chamber 38 and each supporting a switch 206.Switches 206 each have an actuator arm 208 which extend adjacent a notch209 in the plates 204. The stop motion actuator Wire consists of twoelongated rods connected together to span the width of the heat sealchamber and resting on the actuator arms 208 of the switches 206 to holdthem down in normal operating position. The end of the roll of pull tabmaterial 164 is connected to the tube 186 so that when the pull tabmaterial runs out the tube will be pulled upwardly until it reaches theposition shown in FIG. 18 whereat it lifts the stop motion wire 170allowing one of the actuator arms 208 to lift thereby opening the switch206 associated therewith and thereby shut off the machine until a newroll is replaced by an operator.

Mounted above the stop motion actuator wire 170 is the pull tab materialpull back preventor or snubber 172 to prevent the tension in thematerial and rocking movement of the tape roll from pulling the materialback beyond the preventor 172. Basically it consists of an elongatedbracket which supports a plurality of plastic members 211 which tend topress the pull tab material against the elongated rod member 210.

From the pull back preventor the pull tab material passes between theeccentrically mounted rolls 176 and 178. A pair of rolls 176 and 178 isrequired for each heat sealing position and is eccentrically mounted onshafts 212 and 214 which are supported in end plates 216 and 218. Therod member 180 also extends between end plates 216 and 218 and has twoconnecting rods 222 pivotally connected thereto. At the other end theconnecting rods are pivotally connected to a lever arm 224 which in turnis pivotally connected to shaft 157. Cams 226 contact follower 228 tocause the eccentrically mounted rolls to be pulled upwardly (see FIG.17) when pull tab material is needed for the next machine cycle. Thecams 226 are so desired to pull the rolls 176 and 178 upwardly justprior to the actuation of the drive roll 168 so that there will be asupply of pull tabs available when the drive roll 168 is actuated.

The rolls 176 and 178 are eccentrically mounted on shafts 212 and 214and spring loaded toward one another so that on the upward movement therolls will be in nip forming relationship so that pull tab material willbe pulled from the supply roll by the rolls 176 and 178. Then the rollsare allowed to return to the position shown in FIG. 16 where roll 176will hit the stop member 215 causing it to rotate away from roll 17 8and allow the pull tab material to lay slack between the rolls 176, 178and the pull back preventor 172. Then when the drive roll 168 isactuated this accumulated slack will be pulled out through the springloaded rolls 176 and 178. The rolls 176 and 178 are eccentricallymounted to pull the tab material into position against the inertia ofthe pull tab material supply roll.

The drive rolls 168 for each heat sealing unit are mounted on shaft 229(FIGS. 14 and 15) and are driven intermittently by ratchet 230. Theratchet 230 is moved incrementally by pawl 232 mounted on lever arm 234biased toward the ratchet by spring 236. Lever arm 234 is pivotallyconnected to lever arm 238 which is pivotally mounted on shaft 157 andis pivoted by the cam 240 mounted on the shaft 92. In FIG. 15 the cam240 has pushed the follower 242 and lever arm 238 upward to index theratchet 230 and consequentially the drive roll 168. Then the cam 240will continue to rotate allowing the spring 243 to pull the lever arm234 upwardly in preparation for the next cycle.

The flow of web material 10 from the accumulator chamber 34 into thepaper collection chamber 42 is controlled'by the roll 245 (FIG. 1) whichis driven either by I011 240 or 260 which in turn are drivencontinuously by motor 244. Roll 245 is rotatably mounted in pivot arm247 pivoted by piston member 246. When the roll 245 is down paper isbeing pulled and when in the up position it engages the roll 240 tomaintain its speed for the next downward movement to pull paper. Locatedbetween the heat seal chamber 38 and driven roll chamber 40 are snubbers248 and 250 to prevent pull back of the paper and maintain the paper ina substantially fiat position.

As described hereinbefore the web material passes into the papercollection chamber 42 and is delivered to the take-up roll 46 by themetering rolls 44 and 45. Operably associated with the takeup roll 46 isa torque detector 249 to measure the diameter of the roll 46 in order todetermine the amount of torque required on the roll 46 for constanttension take-up of the web material to provide a roll of pre-appliedpull paper such as that shown in FIG. 20.

OPERATION For the sake of discussion, assume the machine has justcompleted a cycle and the piston 246 has just been actuated so that roll245 has just pulled the web material 10 into proper position so thatpunched openings 12 lie under the heater platens 152 ready to be sealedover with pull tabs 14. Each of the drive rolls 168 has been actuated toplace tab material 164 over each of the punched openings. The earns 82,and 154 are starting to act against their respective lever arms 86, 134and 155 to start the movement of the exit clamp 74, the punch unit andthe heat sealing unit. Then the exit clamp 74 closes as shown in FIG. 10while the cam 58 allows the switch 252 (FIGS. 2 and 6) to open to resetthe registration unit and the solenoid controlling the piston 80 isdeenergized to allow the entrance clamp 72 to open. When the entranceclamp 72 is open the cams 98 cause the accumulator 76 to start down topush web material between the rollers 126 and the cam 54 closes switch254 to energize the solenoid controlling the trim cylinder 78 to causethe roller 100 connected thereto to start its downward movement. As thetrim cylinder 78 is fully extended downward the cams 98 cause four ofthe other rollers to complete the downward movement to pull inapproximately 95% of the required amount of web material for the nextcycle. Cam 98a continues to pull web material at a slow rate and atabout the same time cam 58 closes switch 252 to energize photocell 50 toscan the web material to detect the indicia printed thereon. When theindicia is pulled into correct position the photocell 50 will then act,causing the entrance clamp 72 to close and the trim cylinder 78 toretract. The cam 98a completes its pull on the web left slack by thetrim cylinder. A measured amount of paper is now between the entranceand exit clamps 72 and 74 which at this moment are both closed. Thepunch 128 and heater platens 152 complete the punching of holes in thepunch chamber 36 and the heat sealing of tabs in the heat sealingchamber 38. Just as the above operations are being completed the cam 56(FIGS. 2 and 5) closes the switch 258 to energize a solenoid to causethe piston member to start down to lower the drive roll 245 down ontothe paper against the nip roll 260. Shortly after the switch 258 isclosed, the accumulator exit cam causes the exit clamp to open. Then thedrive roll 245 pulls the web material forward until the switch 258 opensto cause the piston 246 to pull the drive roll 245 upwardly. Then thecycle is repeated to provide another section of web material with pulltabs heat sealed thereon.

It should be kept in mind that basically the machine is 3 performingthree operations simultaneously to provide an efiicient rapid operatingmachine. These basic operations 8 consist of accumulating web materialin one portion of the machine while the web material is being punched atanother position and pull tabs are being heat sealed thereto at a thirdposition.

Although I have described in detail the preferred embodiments of myinvention, I contemplate that many changes may be made Without departingfrom the scope or spirit of my invention and I desire to be limited onlyby the claims.

That which is claimed is:

1. Packaging material comprising: an elongated web of material, said webof material having a longitudinal center line, a plurality of openingsin said web of material with each next adjacent opening in said materialbeing alternately located on one side of said center line and then onthe other side of said center line the same distance, each of adjacentopenings being spaced the same longitudinal distance from each other andtabs heat sealed over each of said openings.

2. The packaging material of claim 1 wherein said elongated web ofmaterial is rolled up whereby the outside diameters on each side of saidroll are substantially equal.

References Cited UNITED STATES PATENTS 3,287,878 11/1966 Mobley 93-35 PT3,446,344 5/1969 Paxton 206-59 F 3,166,226 1/ 1965 Mobley 2297 R3,361,611 1/1968 Stark 2297 R 3,552,631 1/1971 Fuchs 22922 WILLIAM T.DIXSON, JR., Primary Examiner US. Cl. X.R.

93-35 PT, 61 A; 116-113; 156-250; 2293.5 R

